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环境监测

随着人们对环境保护的重视,对环境监测要求也愈来愈高,环境科学受到了广泛重视。化学发光法的众多优点使得其在环境分析领域的应用也逐渐增加。近年来,随着环境科学研究的深入和发展,化学发光分析在环境监测中的应用也日益增多,并成功地应用于大气监测、水质监测以及环境污染机理的研究中。BPCL超微弱发光测量仪作为先进的发光研究工具已被广泛应用于环境科学研究领域,并获得了丰硕成果,不少研究成果在Environmental Science & Technology Analytical ChemistryApplied Catalysis B: Environmental等国际著名期刊上发表其例子有:

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[1]       Gao H Y, Mao L, Li F, Xie L N, Huang C H, Shao J, Shao B, Kalyanaraman B, Zhu B Z. Mechanism of intrinsic chemiluminescence production from the degradation of persistent chlorinated phenols by the Fenton system: a structure−activity relationship study and the critical role of quinoid and semiquinone radical intermediates. Environmental Science & Technology, 2017, 51(5):2934-2943.

[2]       Mao L, Liu Y X, Huang C H, Gao H Y, Kalyanaraman B, Zhu B Z. Intrinsic chemiluminescence generation during advanced oxidation of persistent halogenated aromatic carcinogens. Environmental Science & Technology, 2015, 49(13): 7940-7947.

[3]       Teng F, Xu T, Teng Y, Liang S H, Gauge B, Lin J, Yao W Q, Zong R L, Zhu Y F, Zheng Y F. A CL mode detector for rapid catalyst selection and environmental detection fabricated by perovskite nanoparticles. Environmental Science & Technology, 2008, 42 (10): 3886-3892

[4]       Li R J, Kou X J, Geng H, Xie J F, Yang Z H, Zhang Y X, Cai Z W. Effect of ambient PM2.5 on lung mitochondrial damage and fusion/fission gene expression in rats. Chemical Research in Toxicology, 2015, 28(3): 408-418.

[5]       Chen H, Li H F, Lin J M. Determination of ammonia in water based on chemiluminescence resonance energytransfer between peroxymonocarbonate and branched NaYF4: Yb3+/Er3+ nanoparticles. Analytical Chemistry, 2012, 84(20): 8871-8879.

[6]       Li R B, Kameda T, Toriba A, Hayakawa K, Lin J M. Determination of benzo [α] pyrene-7, 10-quinone in airborne particulates by using a chemiluminescence reaction of hydrogen peroxide and hydrosulfite. Analytical Chemistry, 2012, 84(7): 3215-3221.

[7]       Teng F, Chen M, Li G Q, Teng Y, Xu T G, Hang Y C, Yao W Q, Santhanagopalan S, Meng D S S, Zhu Y F. High combustion activity of CH4 and catalluminescence properties of CO oxidation over porous Co3O4 nanorods. Applied Catalysis B: Environmental, 2011, 110:133-140.

[8]       Tang Y, Su Y Y, Yang N, Zhang L C, Lv Y. Carbon nitride quantum dots: a novel chemiluminescence system for selective detection of free chlorine in Water. Analytical Chemistry, 2014, 86(9): 4528-4535.

[9]       Zhou K W, Cheng Y L, Yang H W, Gu C X, Xiao Y, Zhao M H Xu. Identification and determination of formaldehyde, benzene and ammonia in air based on cross sensitivity of cataluminescence on single catalyst. Sensors & Actuators B Chemical, 2017, 246: 703–709.

[10]    Gao W Y, Hui P, Qi L M, Liu Z Y Zhang W, Xu G B. Determination of copper(II) based on its inhibitory effect on the cathodic electrochemiluminescence of lucigenin. Microchimica Acta, 2016, 184:1-5.

[11]    Wang D F, Guo L H, Huang R, Qiu B, Lin Z Y, Chen G N. Surface Enhanced electrochemiluminescence for ultrasensitive detection of Hg2+. Electrochimica Acta, 2014, 150: 123-128.

[12]    Zhang Y X, Yang Z H, Feng Y, Li R J, Zhang Q X, Geng H, Dong C. Effects of coarse chalk dust particles (2.5-10 μm) on respiratory burst and oxidative stress in alveolar macrophages. Environmental Science & Pollution Research International, 2015, 22(16): 12450-12457.

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